BDH1 acetylation at K116 modulates milk fat production in dairy goats
Tiantian Xiong, Chong Chen, Xinglong Gong, Chengming Han, Min Tian, Jun Luo, Lu Deng, Juan J. Loor, Cong Li

TL;DR
This study identifies BDH1 acetylation as a key regulator of milk fat production in dairy goats, offering new insights into improving milk quality through targeted breeding.
Contribution
The first comprehensive acetylome of dairy goat mammary gland tissue is established, with BDH1 acetylation shown to regulate lipid metabolism during lactation.
Findings
BDH1 acetylation promotes lipid droplet formation and triglyceride synthesis in mammary epithelial cells.
HDACs regulate BDH1 deacetylation, which modulates the expression of key lipogenic genes like LXRα, ACSL1, and SCD1.
BDH1 acetylation suppresses SREBP1 gene expression, impacting mammary lipid metabolism.
Abstract
Goat milk is increasing valued for its superior nutritional profile, digestibility, and unique compositional properties. Protein acetylation, a pivotal post-translational modification, plays a critical role in the regulation of biosynthesis and metabolic processes. This study aims to identify key acetylated proteins and their modification sites governing milk production and the synthesis of milk components in dairy goats. Our findings establish a mechanistic foundation for elucidating molecular regulation of lactation and enhancing milk quality through targeted breeding strategies. The acetylome profile of mammary gland tissues in dairy goats was successfully established. A total of 862 significantly acetylated proteins were identified across two lactation phases, and a total of 2,028 acetylation modified sites were identified in mammary gland tissues in dairy goats. Differentially…
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Taxonomy
TopicsDiet and metabolism studies · Adipose Tissue and Metabolism · Cancer, Hypoxia, and Metabolism
